Commercial use of sulfur concrete on Earth is well established, particularly in corrosive, e.g., acid and salt, environments. Having found troilite (FeS) on the Moon raises the question of using extracted sulfur as a lunar construction material, an attractive alternative to conventional concrete as it does not require water. For the purpose of this Technical Memorandum, it is assumed that lunar ore is mined, refined, and the raw sulfur processed with appropriate lunar regolith to form, for example, bricks. With this stipulation, it is then noted that the viability of sulfur concrete in a lunar environment, which is characterized by lack of an atmosphere and extreme temperatures, is not well understood. The work presented here evaluates two sets of small sulfur concrete samples that have been prepared using JSC-1 lunar simulant as an aggregate addition. One set was subjected to extended periods in high vacuum to evaluate sublimation issues, and the other was cycled between room and liquid nitrogen temperatures to investigate their subsequent mechanical integrity. Results are presented from both investigations, discussed, and put into the context of the lunar environment.
Sulfur 'Concrete' for Lunar Applications - Environmental Considerations
2008
52 pages
Report
Keine Angabe
Englisch
Physical & Theoretical Chemistry , Analytical Chemistry , Astrogeology , Space Technology , Extraterrestrial Exploration , Sulfur concrete , Lunar applications , Troilite , Extracted sulfur , Lunar construction material , Lunar ore , Lunar regolith , Sulfur concrete samples , Two sets evaluated , Results , Troilite (FeS)
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